A grow module, a plant growing system, and methods for using the same are disclosed herein. The grow module comprises a plurality of tray modules including a light tray over a growing tray. The light tray includes a lighting array and at least one sensor. The growing tray is adapted to hold a plurality of plant vessels. The grow module comprises a machine-readable identification. The grow module is configured to hold the plurality of tray modules in a vertically stacked configuration. The lighting array on the light tray is configured to provide light to the plurality of plant vessels on the growing tray in the grow module directly under the light tray.
A system for the fertigation of a plant vessel and method of use for the same is disclosed. The system comprises a grow module containing a plurality of growing trays additionally containing plants, and/or shoots of plants in various stages of development. The growing trays are individually extracted from the grow module via a tray movement system and tray elevator controlled by a control system and precisely placed in a fertigation system, wherein they are aligned over and lowered onto an at least one nozzle which penetrate the plant vessels containing the plants and fertigate them with a combination of water, nutrients, and/or pressurized air. The individual growing tray is then replaced in the grow module and the process is repeated for all growing trays and plant vessels in the grow module.
A plant growing vessel includes an impervious outer vessel, a cover, a first permeable membrane, a nutrient chamber, and a pocket. The impervious outer vessel includes an inert substrate in a root zone. The cover is positioned over the impervious outer vessel. The first permeable membrane is in contact with the inert substrate. The nutrient chamber includes solid nutrients. The nutrient chamber is between the cover and the first permeable membrane or between the first permeable membrane and a bottom of the impervious outer vessel, and the solid nutrients are in contact with the first permeable membrane. The pocket is configured to allow seeds, seedlings, or shoots of plants access to the inert substrate through an aperture in the cover.
A grow module, a plant growing system, and methods for using the same are disclosed herein. The grow module comprises a plurality of tray modules including a light tray over a growing tray. The light tray includes a lighting array and at least one sensor. The growing tray is adapted to hold a plurality of plant vessels. The grow module comprises a machine-readable identification. The grow module is configured to hold the plurality of tray modules in a vertically stacked configuration. The lighting array on the light tray is configured to provide light to the plurality of plant vessels on the growing tray in the grow module directly under said light tray.
An automated growing facility for plants, seeds, or seedlings is disclosed. The facility comprises a growing chamber, a fertigation station, a load/unload station, a device such as an automated guided vehicle (AGV) configured to transport grow modules, and a control system configured to control at least one of the grow modules, the fertigation station, the load/unload station, and the AGV. The grow modules are transported from the growing chamber to the fertigation station using the AGV for fertigating plant vessels in growing trays of the grow modules, and the fertigated plants vessels are transported from the fertigation station to the growing chamber using the AGV. Further, the plant vessels are loaded into the growing trays and unloaded from the growing trays at the load/unload station.
An automated growing facility for plants, seeds, or seedlings is disclosed. The facility comprises a growing chamber, a fertigation station, a load/unload station, a device such as an automated guided vehicle (AGV) configured to transport grow modules, and a control system configured to control at least one of the grow modules, the fertigation station, the load/unload station, and the AGV. The grow modules are transported from the growing chamber to the fertigation station using the AGV for fertigating plant vessels in growing trays of the grow modules, and the fertigated plants vessels are transported from the fertigation station to the growing chamber using the AGV. Further, the plant vessels are loaded into the growing trays and unloaded from the growing trays at the load/unload station.
A01G 9/24 - Devices for heating, ventilating, regulating temperature, or watering, in greenhouses, forcing-frames, or the like
B65D 85/52 - Containers, packaging elements or packages, specially adapted for particular articles or materials for living organisms, articles or materials sensitive to changes of environment or atmospheric conditions, e.g. land animals, birds, fish, water plants, non-aquatic plants, flower bulbs, cut flowers or foliage for living plantsContainers, packaging elements or packages, specially adapted for particular articles or materials for living organisms, articles or materials sensitive to changes of environment or atmospheric conditions, e.g. land animals, birds, fish, water plants, non-aquatic plants, flower bulbs, cut flowers or foliage for growing bulbs
A plant growing tray system, and a method of using the same, the system comprising a growing tray including a plurality of tray insert openings configured to accept tray inserts, a pallet stop, and a transfer catch. The system further comprises a plurality of tray inserts comprising a plurality of tray locking points configured to secure each of the plurality of tray inserts within the plurality of tray insert openings, a vessel cavity to hold a plant vessel, a plurality of fertigation holes on the bottom of the vessel cavity configured to receive fertigation needles, and a plurality of plant vessel securement points configured to secure the plant vessel within the vessel cavity.
A system for the fertigation of a plant vessel and method of use for the same is disclosed. The system comprises a grow module containing a plurality of growing trays additionally containing plants, and/or shoots of plants in various stages of development. The growing trays are individually extracted from the grow module via a tray movement system and tray elevator controlled by a control system and precisely placed in a fertigation system, wherein they are aligned over and lowered onto an at least one nozzle which penetrate the plant vessels containing the plants and fertigate them with a combination of water, nutrients, and/or pressurized air. The individual growing tray is then replaced in the grow module and the process is repeated for all growing trays and plant vessels in the grow module.
A grow module, a plant growing system, and methods for using the same are disclosed herein. The grow module comprises a plurality of tray modules including a light tray over a growing tray. The light tray includes a lighting array and at least one sensor. The growing tray is adapted to hold a plurality of plant vessels. The grow module comprises a machine-readable identification. The grow module is configured to hold the plurality of tray modules in a vertically stacked configuration. The lighting array on the light tray is configured to provide light to the plurality of plant vessels on the growing tray in the grow module directly under said light tray.
A system for the fertigation of a plant vessel and method of use for the same is disclosed. The system comprises a grow module containing a plurality of growing trays additionally containing plants, and/or shoots of plants in various stages of development. The growing trays are individually extracted from the grow module via a tray movement system and tray elevator controlled by a control system and precisely placed in a fertigation system, wherein they are aligned over and lowered onto an at least one nozzle which penetrate the plant vessels containing the plants and fertigate them with a combination of water, nutrients, and/or pressurized air. The individual growing tray is then replaced in the grow module and the process is repeated for all growing trays and plant vessels in the grow module.
A lighting array and a method of using the same facilitate a lighting strategy that dynamically provides the photosynthetic photon flux density needed by a plant throughout its stages of growth while reducing power loss and waste caused by providing excess light during all stages of plant growth. LED placement patterns may be used to form a number of lighting channels on an LED board or an array of LED boards. These lighting channels may be individually controlled such that the ON/OFF state, intensity, and wavelength, of a plurality of LEDs may be adjusted to provide variable illumination levels and wavelengths of light customized for attributes of the plants being illuminated, such as their stage of growth, size, type, and/or shape.
A system for the fertigation of a plant vessel and method of use for the same is disclosed. The system comprises a grow module containing a plurality of growing trays additionally containing plants, and/or shoots of plants in various stages of development. The growing trays are individually extracted from the grow module via a tray movement system and tray elevator controlled by a control system and precisely placed in a fertigation system, wherein they are aligned over and lowered onto an at least one nozzle which penetrate the plant vessels containing the plants and fertigate them with a combination of water, nutrients, and/or pressurized air. The individual growing tray is then replaced in the grow module and the process is repeated for all growing trays and plant vessels in the grow module.
A grow module, a plant growing system, and methods for using the same are disclosed herein. The grow module comprises a plurality of tray modules including a light tray over a growing tray. The light tray includes a lighting array and at least one sensor. The growing tray is adapted to hold a plurality of plant vessels. The grow module comprises a machine-readable identification. The grow module is configured to hold the plurality of tray modules in a vertically stacked configuration. The lighting array on the light tray is configured to provide light to the plurality of plant vessels on the growing tray in the grow module directly under said light tray.
A lighting array and a method of using the same facilitate a lighting strategy that dynamically provides the photosynthetic photon flux density needed by a plant throughout its stages of growth while reducing power loss and waste caused by providing excess light during all stages of plant growth. LED placement patterns may be used to form a number of lighting channels on an LED board or an array of LED boards. These lighting channels may be individually controlled such that the ON/OFF state, intensity, and wavelength, of a plurality of LEDs may be adjusted to provide variable illumination levels and wavelengths of light customized for attributes of the plants being illuminated, such as their stage of growth, size, type, and/or shape.
A01G 7/04 - Electric or magnetic treatment of plants for promoting growth
F21V 14/00 - Controlling the distribution of the light emitted by adjustment of elements
F21Y 105/14 - Planar light sources comprising a two-dimensional array of point-like light-generating elements characterised by the overall shape of the two-dimensional array
G01J 1/30 - Photometry, e.g. photographic exposure meter by comparison with reference light or electric value intensity of the measured or reference value being varied to equalise their effects at the detector, e.g. by varying incidence angle using variation of intensity or distance of source using electric radiation detectors
H05B 47/105 - Controlling the light source in response to determined parameters
15.
Charged plant vessel for controlled nutrient release
A plant growing vessel includes an impervious outer vessel, a cover, a first permeable membrane, a nutrient chamber, and a pocket. The impervious outer vessel includes an inert substrate in a root zone. The cover is positioned over the impervious outer vessel. The first permeable membrane is in contact with the inert substrate. The nutrient chamber includes solid nutrients. The nutrient chamber is between the cover and the first permeable membrane or between the first permeable membrane and a bottom of the impervious outer vessel, and the solid nutrients are in contact with the first permeable membrane. The pocket is configured to allow seeds, seedlings, or shoots of plants access to the inert substrate through an aperture in the cover.
01 - Chemical and biological materials for industrial, scientific and agricultural use
31 - Agricultural products; live animals
39 - Transport, packaging, storage and travel services
44 - Medical, veterinary, hygienic and cosmetic services; agriculture, horticulture and forestry services
Goods & Services
Hydroponic fertilizers; aeroponic fertilizers; expanded-clay for growing hydroponic plants; substrates for growing hydroponic plants. Living plants grown in hydroponic and aeroponic vessels; fresh herbs grown in hydroponic and aeroponic vessels; fresh vegetables grown in hydroponic and aeroponic vessels; fresh fruits grown in hydroponic and aeroponic vessels. Distribution services, namely, delivery of living plants, fruits, vegetables, and herbs; distribution services, namely, delivery of hydroponic and aeroponic plant growing systems. Hydroponic farming services; aeroponic farming services.
01 - Chemical and biological materials for industrial, scientific and agricultural use
31 - Agricultural products; live animals
39 - Transport, packaging, storage and travel services
44 - Medical, veterinary, hygienic and cosmetic services; agriculture, horticulture and forestry services
Goods & Services
(1) Hydroponic fertilizers; aeroponic fertilizers; expanded-clay for growing hydroponic plants; substrates for growing hydroponic plants
(2) Living plants grown in hydroponic and aeroponic vessels; fresh herbs grown in hydroponic and aeroponic vessels; fresh vegetables grown in hydroponic and aeroponic vessels; fresh fruits grown in hydroponic and aeroponic vessels (1) Distribution services, namely, delivery of living plants, fruits, vegetables, and herbs; distribution services, namely, delivery of hydroponic and aeroponic plant growing systems
(2) Hydroponic farming services; aeroponic farming services
A system for growing and handling plants includes at least one water and nutrient supply assembly configured to provide water and nutrients to at least one contained plant, at least one light assembly configured to provide light to the at least one contained plant, at least one plant access station for performing at least one of loading the at least one contained plant into the system, unloading the at least one contained plant from the system, and monitoring the at least one contained plant, and a movement assembly for moving the at least one contained plant to at least one of the at least one water and nutrient supply assembly, the at least one light assembly, and the at least one plant access station.
This disclosure relates to compositions, containers, systems, assemblies, and related methods for cultivation and shipping of live and growing plants. The compositions, containers, systems, assemblies, and related methods disclosed herein provide additional stability for a plant's growing environment and enable prolonged storage and shipping shelf life while also reducing or eliminating the need for refrigeration.
A01G 9/02 - Receptacles, e.g. flower-pots or boxes Glasses for cultivating flowers
A01G 27/00 - Self-acting watering devices, e.g. for flower-pots
A01G 27/02 - Self-acting watering devices, e.g. for flower-pots having a water reservoir, the main part thereof being located wholly around or directly beside the growth substrate
A01G 13/02 - Protective coverings for plants; Devices for laying-out coverings
B65D 85/52 - Containers, packaging elements or packages, specially adapted for particular articles or materials for living organisms, articles or materials sensitive to changes of environment or atmospheric conditions, e.g. land animals, birds, fish, water plants, non-aquatic plants, flower bulbs, cut flowers or foliage for living plantsContainers, packaging elements or packages, specially adapted for particular articles or materials for living organisms, articles or materials sensitive to changes of environment or atmospheric conditions, e.g. land animals, birds, fish, water plants, non-aquatic plants, flower bulbs, cut flowers or foliage for growing bulbs
